Difference between revisions of "Team:UrbanTundra Edmonton/Design"

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           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/Our_Story">Our Story</a></li>
 
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           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/Collaborations">Collaborations</a></li>
 
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           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/Proof">Bio Reaction</a></li>
 
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           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/Part_Collection">Collection</a></li>
 
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           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/Engagement">Outreach</a></li>
 
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          <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/aGEM">aGEM</a></li>
 
 
           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/HP/Silver">Silver</a></li>
 
           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/HP/Silver">Silver</a></li>
 
           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/HP/Gold">Gold</a></li>
 
           <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/HP/Gold">Gold</a></li>
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          <li><a href="https://2016.igem.org/Team:UrbanTundra_Edmonton/Awards">Awards</a></li>
 
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<h1 style="font-size: 24px;">Gene Design</h1>
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           <h1>G-Block design of Cld:</h1>
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           <h2>G-Block design of Cld:</h2>
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<p>
 
<p>
   G-Block designs are shown below in Figures 4 and 5 as schematics or sequences. In their original work, Thorell et al. cloned, sequenced, and functionally expressed the natural coding sequence for Cld from I. Dechloratans. They determined that the gene was capable of converting ClO2 to O2 and Cl- and that its activity was localized to the periplasm, even though its putative signal peptide had not been cleaved. In light of their results we decided to design a Cld gene (Cld SP+) where the putative signal peptide was replaced with the MalE signal peptide from E. coli that has been previously shown to be a superior signal for periplasmic localization that is cleaved (Samant et al. 2014). In addition we designed a Cld gene that lacked the signal sequence (Cld SP-) as a negative control. We also appended a C-terminal histidine tag to each in order to purify the enzymes in the event that O2 production from living cells proved inefficient.  Flanking these BsaI sites were XbaI (5’) and the BBa_ std 1 suffix (3’) to facilitate parts creation for the registry. We note that the natural coding sequence contained none of the standard BBa_10 restrictions sites, but did contain a single internal BsaI site which we eliminated with a single base silent substitution (Fig 5)
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   G-Block designs are shown below in Figures 1 and 2 as schematics or sequences. In their original work, Thorell et al. cloned, sequenced, and functionally expressed the natural coding sequence for Cld from <em>I. Dechloratans.</em> They determined that the gene was capable of converting ClO<sub>2</sub> to O<sub>2</sub> and Cl<sup>-</sup> and that its activity was localized to the periplasm, even though its putative signal peptide had not been cleaved. In light of their results we decided to design a Cld gene (Cld SP+) where the putative signal peptide was replaced with the MalE signal peptide from <em>E. coli</em> that has been previously shown to be a superior signal for periplasmic localization that is cleaved (Samant et al. 2014). In addition we designed a Cld gene that lacked the signal sequence (Cld SP-) as a negative control. We also appended a C-terminal histidine tag to each in order to purify the enzymes in the event that O<sub>2</sub> production from living cells proved inefficient.  Flanking these BsaI sites were XbaI (5’) and the BBa_ std 1 suffix (3’) to facilitate parts creation for the registry. We note that the natural coding sequence contained none of the standard BBa_10 restrictions sites, but did contain a single internal BsaI site which we eliminated with a single base silent substitution (Fig 1)
 
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</p>
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<div class="figure">
 
<div class="figure">
 
   <img src="https://static.igem.org/mediawiki/2016/5/5f/T--UrbanTundra_Edmonton--Chlorite_Dismutase_Gene.png" alt="Designing a synthetic version of the chlorite dismutase gene from Ideonella Dechloratans"  max width="100%">
 
   <img src="https://static.igem.org/mediawiki/2016/5/5f/T--UrbanTundra_Edmonton--Chlorite_Dismutase_Gene.png" alt="Designing a synthetic version of the chlorite dismutase gene from Ideonella Dechloratans"  max width="100%">
   <h5>Figure 4. <br> Shown is a schematic, of the natural chlorite (Cld) dismutase coding sequence from I. Dechloratans as originally characterized by Thorell et al. and the G-Block designs for Cld with (+SP) and without (-SP) the periplasmic localization signal peptide. In Cld(+SP) the signal peptide from the E. coli MalE gene replaces the the putative signal peptide of the natural gene. Both G-Blocks duplicate the RBS driving the Tinsel cassette of PCB-38-441 (Fig_) up to BsaI site. Both coding sequences have been appended with a stretch of 10 histidine residues at their C-terminus for Nickel column purification of each enzyme. The single BsaI site contained in the natural gene was eliminated by a silent mutation (see Fig.__). The Restriction sites flanking the Bsa I sites were included to create Parts according to BBa std 10.</h5>
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<br></br>
 +
   <h5>Figure 1. <br> Shown is a schematic, of the natural chlorite (Cld) dismutase coding sequence from <em>I. Dechloratans</em> as originally characterized by Thorell et al. and the G-Block designs for Cld with (+SP) and without (-SP) the periplasmic localization signal peptide. In Cld(+SP) the signal peptide from the <em>E. coli</em> MalE gene replaces the the putative signal peptide of the natural gene. Both G-Blocks duplicate the RBS driving the Tinsel cassette of PCB-38-441 (Fig_) up to BsaI site. Both coding sequences have been appended with a stretch of 10 histidine residues at their C-terminus for Nickel column purification of each enzyme. The single BsaI site contained in the natural gene was eliminated by a silent mutation (see Fig.2). The Restriction sites flanking the Bsa I sites were included to create Parts according to BBa std 10.</h5>
 
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</div>
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<br></br>
 
<div class="figure">
 
<div class="figure">
   <img src="2016.igem.org/wiki/images/8/8a/T--UrbanTundra_Edmonton--1.jpg" alt="Chlorite Dismutase G Block Sequences"  max width="100%">
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   <img src="https://static.igem.org/mediawiki/2016/8/8a/T--UrbanTundra_Edmonton--1.jpg" alt="Chlorite Dismutase G Block Sequences"  max width="100%">
   <h5>Figure 5. <br> Shown are the engineered G-Block sequences for (CldSP-) and Cld (Sp+). Sequence highlighted in blue indicates regions that are shared between the host plasmid backbone, PBP-38-441 (Fig.1). The BsaI cut sites are shown in upper case. Cld coding sequences are shown in black with their corresponding starts and stops in upper case. The mutated internal BsaI site scar is highlighted in yellow. Red G shows a substitution at the position of a Thr codon that does not change the peptide sequence. The MalE signal sequence of Cld(SP+) is highlighted in grey.</h5>
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   <h5>Figure 2. <br> Shown are the engineered G-Block sequences for (CldSP-) and Cld (Sp+). Sequence highlighted in blue indicates regions that are shared between the host plasmid backbone, PBP-38-441 (Fig.1). The BsaI cut sites are shown in upper case. Cld coding sequences are shown in black with their corresponding starts and stops in upper case. The mutated internal BsaI site scar is highlighted in yellow. Red G shows a substitution at the position of a Thr codon that does not change the peptide sequence. The MalE signal sequence of Cld(SP+) is highlighted in gray.</h5>
 
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<h4>References</h4>
 
<h4>References</h4>
 
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<p>Our project has two main goals. The first is the extraction, purification and concentration of ClO4⁻ from Martian soil, which we aim to achieve by using an activated charcoal column to bind perchlorate. ClO4⁻ is highly soluble in water. We are testing the idea that ClO4⁻ can be highly enriched and concentrated inexpensively using activated charcoal, as previously shown for a similar compound [ref 4. Insert here]. The second goal is the bioconversion of ClO4⁻ to oxygen using genetically engineered E. coli that can grow on colony bio-waste. We aim to use two enzymes, perchlorate reductase and chlorite dismutase, which break down perchlorate to chloride ions and oxygen. Our goal is to clone the three genes that code for these enzymes, from the soil bacterium Ideonella dechloratans [3], into an expression vector in E. coli to make perchlorate reductase and chlorite dismutase in the same cell. We have also developed a method for the recycling of Martian colony biowaste into a highly enriched media for bacterial growth. Our E. coli will be compatible for usage with both LB media and treated biowaste media.</P>
 
 
<p>(Why?) Stephen Hawking recognized that humans are like eggs in a basket - drop the basket and all is lost. Planet Earth is the basket, and over the long-term, a calamity - be it through climate change, disease, asteroid collisions, etc. - is a statistical certainty. Colonizing Mars is the first step in distributing the eggs to other baskets. However, colonies must be able to sustain themselves on what can be found locally. There isn’t much on Mars, but there is perchlorate, and that is why we feel that this project and others like it will contribute significantly to what is evolving into a major international effort. In short term, Mars missions will develop, and spin-off a range of creative technologies that will allow us all to live more comfortably, efficiently, and cleanly on planet Earth.</p>
 
 
 
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Latest revision as of 05:02, 11 December 2016


Urban Tundra | Intelligent Innovation

G-Block design of Cld:

G-Block designs are shown below in Figures 1 and 2 as schematics or sequences. In their original work, Thorell et al. cloned, sequenced, and functionally expressed the natural coding sequence for Cld from I. Dechloratans. They determined that the gene was capable of converting ClO2 to O2 and Cl- and that its activity was localized to the periplasm, even though its putative signal peptide had not been cleaved. In light of their results we decided to design a Cld gene (Cld SP+) where the putative signal peptide was replaced with the MalE signal peptide from E. coli that has been previously shown to be a superior signal for periplasmic localization that is cleaved (Samant et al. 2014). In addition we designed a Cld gene that lacked the signal sequence (Cld SP-) as a negative control. We also appended a C-terminal histidine tag to each in order to purify the enzymes in the event that O2 production from living cells proved inefficient. Flanking these BsaI sites were XbaI (5’) and the BBa_ std 1 suffix (3’) to facilitate parts creation for the registry. We note that the natural coding sequence contained none of the standard BBa_10 restrictions sites, but did contain a single internal BsaI site which we eliminated with a single base silent substitution (Fig 1)



Designing a synthetic version of the chlorite dismutase gene from Ideonella Dechloratans

Figure 1.
Shown is a schematic, of the natural chlorite (Cld) dismutase coding sequence from I. Dechloratans as originally characterized by Thorell et al. and the G-Block designs for Cld with (+SP) and without (-SP) the periplasmic localization signal peptide. In Cld(+SP) the signal peptide from the E. coli MalE gene replaces the the putative signal peptide of the natural gene. Both G-Blocks duplicate the RBS driving the Tinsel cassette of PCB-38-441 (Fig_) up to BsaI site. Both coding sequences have been appended with a stretch of 10 histidine residues at their C-terminus for Nickel column purification of each enzyme. The single BsaI site contained in the natural gene was eliminated by a silent mutation (see Fig.2). The Restriction sites flanking the Bsa I sites were included to create Parts according to BBa std 10.


Chlorite Dismutase G Block Sequences
Figure 2.
Shown are the engineered G-Block sequences for (CldSP-) and Cld (Sp+). Sequence highlighted in blue indicates regions that are shared between the host plasmid backbone, PBP-38-441 (Fig.1). The BsaI cut sites are shown in upper case. Cld coding sequences are shown in black with their corresponding starts and stops in upper case. The mutated internal BsaI site scar is highlighted in yellow. Red G shows a substitution at the position of a Thr codon that does not change the peptide sequence. The MalE signal sequence of Cld(SP+) is highlighted in gray.


References

Thorell, H.D, Karlsson, J., Portelius, E.and Nilsson, T. Biochimica et Biophysica Acta 1577 (2002) 445–451

Samant,S., Gupta, G., Karthikeyan, S., Haq, S., Sambasivam, N.G., and Sukumaran, S. J Ind Microbiol Biotechnol (2014) 41:1435–1442

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